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Millimeter-wave diode-grid frequency doubler (1988)

Luhmann, Neville C., Jr. ; Chen, Howard Z. ; Lam, Wayne W. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-12

Description: Monolithic diode grids were fabricated on 2-cm square gallium-arsenide wafers in a proof-of-principle test of a quasi-optical varactor millimeter-wave frequency multiplier array concept. An equivalent circuit model based on a transmission-line analysis of plane wave illumination was applied to predict the array performance. The doubler experiments were performed under far-field illumination conditions. A second-harmonic conversion efficiency of 9.5 percent and output powers of 0.5 W were achieved at 66 GHz when the diode grid was pumped with a pulsed source at 33 GHz. This grid had 760 Schottky-barrier varactor diodes. The average series resistance was 27 ohms, the minimum capacitance was 18 fF at a reverse breakdown voltage of -3 V. The measurements indicate that the diode grid is a feasible device for generating watt-level powers at millimeter frequencies and that substantial improvement is possible by improving the diode breakdown voltage.

Keywords: ELECTRONICS AND ELECTRICAL ENGINEERING

Type: AD-A205028 , IEEE Transactions on Microwave Theory and Techniques (ISSN 0018-9480); 36; 1507-151

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Millimeter-wave diode-grid phase shifters (1988)

Stolt, Kjell S. ; Jou, Christina F. ; Chen, Howard Z. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-12

Description: Monolithic diode grids have been fabricated on 2-cm square gallium-arsenide wafers with 1600 Schottky-barrier varactor diodes. Shorted diodes are detected with a liquid-crystal technique, and the bad diodes are removed with an ultrasonic probe. A small-aperture reflectometer that uses wavefront division interference was developed to measure the reflection coefficient of the grids. A phase shift of 70 deg with a 7-dB loss was obtained at 93 GHz when the bias on the diode grid was changed from -3 V to 1 V. A simple transmission-line grid model, together with the measured low-frequency parameters for the diodes, was shown to predict the measured performance over the entire capacitive bias range of the diodes, as well as over the complete reactive tuning range provided by a reflector behind the grid, and over a wide range of frequencies from 33 GHz to 141 GHz. This shows that the transmission-line model and the measured low-frequency diode parameters can be used to design an electronic beam-steering array and to predict its performance. An electronic beam-steering array made of a pair of grids using state-of-the-art diodes with 5-ohm series resistances would have a loss of 1.4 dB at 90 GHz.

Keywords: ELECTRONICS AND ELECTRICAL ENGINEERING

Type: AD-A204376 , AD-A204436 , IEEE Transactions on Microwave Theory and Techniques (ISSN 0018-9480); 36; 902-907

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